Flexible flatfeet are considered normal in young children because babies are not born with a normal arch. The arch may not form fully until sometime between ages 7 and 10. Even in adulthood, 15% to 25% of people have flexible flatfeet. Most of these people never develop symptoms. In many adults who have had flexible flatfeet since childhood, the missing arch is an inherited condition related to a general looseness of ligaments. These people usually have extremely flexible, very mobile joints throughout the body, not only in the feet. Flatfeet also can develop during adulthood. Causes include joint disease, such as rheumatoid arthritis, and disorders of nerve function (neuropathy). Unlike a flexible flatfoot, a rigid flatfoot is often the result of a significant problem affecting the structure or alignment of the bones that make up the foot's arch. Some common causes of rigid flatfeet include. Congenital vertical talus. In this condition, there is no arch because the foot bones are not aligned properly. In some cases, there is a reverse curve (rocker-bottom foot, in which the shape is like the bottom rails of a rocking chair) in place of the normal arch. Congenital vertical talus is a rare condition present at birth. It often is associated with a genetic disorder, such as Down syndrome, or other congenital disorders. The cause is unknown in up to half of cases. Tarsal coalition (peroneal spastic flatfoot). In this inherited condition, two or more of the foot bones are fused together, interfering with the flexibility of the foot and eliminating the normal arch. A rare condition, it often affects several generations of the same family. Lateral subtalar dislocation. Sometimes called an acquired flatfoot, it occurs in someone who originally had a normal foot arch. In a lateral subtalar dislocation, there is a dislocation of the talus bone, located within the arch of the foot. The dislocated talus bone slips out of place, drops downward and sideways and collapses the arch. It usually occurs suddenly because of a high-impact injury related to a fall from a height, a motor vehicle accident or participation in sports, and it may be associated with fractures or other injuries.

Causes

There are many different causes of flat feet, which can be separated into two main categories. The first category, congenital flat foot, is a condition that one is born with or is predisposed to at birth. This type includes the completely asymptomatic, pediatric flexible flat foot-by far the most common form of congenital flat foot. Flexible means that an arch is present until weight is put on the foot, at which time the arch disappears. This foot type is a result of the fact that all people are born with different physical features. Some people have bigger noses than others, just as some people have flatter feet (of course, there is no known correlation between the two). Any alteration in the many building blocks of the foot can influence its shape. At the other end of the spectrum, yet within the same category of congenital flat foot, exist several rare, more severe forms of flat foot. These severe conditions include Vertical Talus, Congenital Calcaneal Valgus, and Tarsal Coalitions - all of which are more rigid (no arch with or without weight on the foot) and definitely symptomatic. Luckily, these are much less common, but can usually be identified by specialists at the time of presentation and treated appropriately. The second category, acquired flat foot, develops over time, rather than at birth. Many different factors can contribute to the development of flat feet. These include the types of shoes a child wears, a child's sitting or sleeping positions, compensation for other abnormalities further up the leg, or more severe factors such as rupture of ligaments or tendons in the foot. Very commonly, the reason for flat feet is that the foot is compensating for a tight Achilles tendon. If the Achilles tendon is tight, then it causes the foot to point down, or to plantarflex (as occurs when stepping on the accelerator of your car). Even minimal amounts of plantarflexion can simulate a longer leg on that particular side, assuming that the other foot is in the normal position. The body therefore tries to compensate by pronating, or flattening out the arch, thereby making up for the perceived extra length on the affected side.

Symptoms

People will have a very heavily dropped arch and it won?t affect them at all and people will have it slightly dropped and it could cause fierce problems. It could cause things like plantar fasciitis, it could cause heel spurs, desperate ball-of-the-foot pressure, or pressure on the big toe known as the hallux which causes discomfort in the foot. It will create problems upwards to the knees, hips and the back once you?re out of line.

Diagnosis

An examination of the foot is enough for the health care provider to diagnose flat foot. However, the cause must be determined. If an arch develops when the patient stands on his or her toes, the flat foot is called flexible and no treatment or further work-up is necessary. If there is pain associated with the foot or if the arch does not develop with toe-standing, x-rays are necessary. If a tarsal coalition is suspected, a CT scan is often ordered. If a posterior tibial tendon injury is suspected, your health care provider may recommend an MRI.

The treatment is simple for flat feet. We will carry out a biomechanical assessment and full history, often along side a Computerised Gait Scan to give us an idea of how the foot is compensating. Treatment will be to, control how the foot hits the ground, support the middle of the foot and prevent the arch collapsing, promote normal movement in the front of the foot. The ability to do this will be dictated by the movement within the foot to start with. Treatment for all the above problems are often combined with a physiotherapy session in order to help develop a stretching and strengthening program for the back of the legs and the pelvis in order to allow normal function when the orthoses have been prescribed. If you are born with flat feet you will not grow out of them - if you get orthoses, like glasses you will need them for the rest of your life if you want to correct the mechanics in your foot. In 95% of cases, orthoses will reduce symptoms by at least 85%. In the other 5% we will work with them to get them to this level.

Surgical Treatment

A combination of surgical procedures can be used to reconstruct the flatfoot. Generally, these procedures can be separated into those that correct deformities of the bones and those that repair ligaments and tendons. Your orthopaedic surgeon will choose the proper combination of procedures for your foot. Surgery of the foot can be performed under regional anesthesia, which is numbing the foot and ankle with a nerve or spinal block, or general anesthesia, which may require a breathing tube. A nerve block is often placed behind the knee to reduce pain after surgery.

Prevention

Flat feet or Fallen Arches cannot be prevented due to congenital of nature or from underlying disease process; however, painful symptoms and future pathology from Flat Feet or Fallen Arches may be prevented by the following. Continue to wear your orthotics for work and exercise to provide stability and maintain function of your feet. Footwear. Continue to wear supportive shoes to maximise the function of your orthotic and prevent excessive movement of the joints in your feet.

The heel bone is the largest of the 26 bones in the human foot, which also has 33 joints and a network of more than 100 tendons, muscles, and ligaments. Like all bones, it is subject to outside influences that can affect its integrity and its ability to keep us on our feet. Heel pain, sometimes disabling, can occur in the front, back, or bottom of the heel.

Causes

Pain in the foot can be due to a problem in any part of the foot. Bones, ligaments, tendons, muscles, fascia, toenail beds, nerves, blood vessels, or skin can be the source of foot pain. The cause of foot pain can be narrowed down by location and by considering some of the most common causes of foot pain. Plantar fasciitis is the most common cause of heel pain. The plantar fascia, a band of tough tissue connecting the heel bone to the toes, becomes irritated or inflamed. Heel pain, worst in the morning when getting out of bed, is the most common symptom. Arch pain may also be present.

Symptoms

Plantar fascia usually causes pain and stiffness on the bottom of your heel although some people have heel spurs and suffer no symptoms at all. Occasionally, heel pain is also associated with other medical disorders such as arthritis (inflammation of the joint), bursitis (inflammation of the tissues around the joint). Those who have symptoms may experience ?First step? pain (stone bruise sensation) after getting out of bed or sitting for a period of time. Pain after driving. Pain on the bottom of your heel. Deep aching pain. Pain can be worse when barefoot.

Diagnosis

The diagnosis of plantar fasciitis is generally made during the history and physical examination. There are several conditions that can cause heel pain, and plantar fasciitis must be distinguished from these conditions. Pain can be referred to the heel and foot from other areas of the body such as the low back, hip, knee, and/or ankle. Special tests to challenge these areas are performed to help confirm the problem is truly coming from the plantar fascia. An X-ray may be ordered to rule out a stress fracture of the heel bone and to see if a bone spur is present that is large enough to cause problems. Other helpful imaging studies include bone scans, MRI, and ultrasound. Ultrasonographic exam may be favored as it is quick, less expensive, and does not expose you to radiation. Laboratory investigation may be necessary in some cases to rule out a systemic illness causing the heel pain, such as rheumatoid arthritis, Reiter's syndrome, or ankylosing spondylitis. These are diseases that affect the entire body but may show up at first as pain in the heel.

Non Surgical Treatment

Essentially rest from aggravating activity, physiotherapy treatment to alleviate the inflammatory component, stretching the tight calf, strengthening up of the intrinsic muscles of the foot e.g. tissue scrunch, picking up pens etc. and correction of biomechanical problems in the foot e.g. orthotics. Sometimes, a heel cup or pad to relieve pressure - a donut type pad may be helpful. Strapping has been shown to be helpful, especially in circumstances where the patient can?t wear orthotics - the foot is strapped to help support the arch. There has been limited success with cortisone injections or surgery and the latter is very rarely required.

Surgical Treatment

At most 95% of heel pain can be treated without surgery. A very low percentage of people really need to have surgery on the heel. It is a biomechanical problem and it?s very imperative that you not only get evaluated, but receive care immediately. Having heel pain is like having a problem with your eyes; as you would get glasses to correct your eyes, you should look into orthotics to correct your foot. Orthotics are sort of like glasses for the feet. They correct and realign the foot to put them into neutral or normal position to really prevent heel pain, and many other foot issues. Whether it be bunions, hammertoes, neuromas, or even ankle instability, a custom orthotic is something worth considering.

You can help to prevent heel pain by maintaining a healthy weight, by warming up before participating in sports and by wearing shoes that support the arch of the foot and cushion the heel. If you are prone to plantar fasciitis, exercises that stretch the Achilles tendon (heel cord) and plantar fascia may help to prevent the area from being injured again. You also can massage the soles of your feet with ice after stressful athletic activities. Sometimes, the only interventions needed are a brief period of rest and new walking or running shoes.

Epiphysiodesis is a surgical option designed to slow down the growth of the long leg over a period of months to years. It is only used in growing children. The operation involves a general anaesthetic. Small incisions are made around the knee near the growth plates of the thigh bone and the shin bone. The growth plates are prevented from growing by the use of small screws and plates (?8 - plates?). The screws are buried beneath the skin and are not visible. Stitches are buried beneath the skin and do not need to be removed. The child is normally in hospital for 2-3 days. The child can weight bear immediately and return back to normal activity within a few weeks. Long term follow up is required to monitor the effects of the surgery. The timing of the surgery is based on the amount of growth predicted for the child. Therefore, this procedure can under- and over-correct the difference in leg length. Occasionally the screws have to be removed to allow growth to continue. This procedure can be used on one half of the growth plate to correct deformity in a limb e.g. knock-knees or bow legs. This is known as hemiepiphysiodesis.

Causes

Leg length discrepancies can be caused by: hip and knee replacements, lower limb injuries, bone diseases, neuromuscular issues and congenital problems. Although discrepancies of 2 cm or less are most common, discrepancies can be greater than 6 cm. People who have LLD tend to make up for the difference by over bending their longer leg or standing on the toes of their shorter leg. This compensation leads to an inefficient, up and down gait, which is quite tiring and over time can result in posture problems as well as pain in the back, hips, knees and ankles.

Symptoms

The effects vary from patient to patient, depending on the cause of the discrepancy and the magnitude of the difference. Differences of 3 1/2 to 4 percent of the total length of the lower extremity (4 cm or 1 2/3 inches in an average adult), including the thigh, lower leg and foot, may cause noticeable abnormalities while walking and require more effort to walk. Differences between the lengths of the upper extremities cause few problems unless the difference is so great that it becomes difficult to hold objects or perform chores with both hands. You and your physician can decide what is right for you after discussing the causes, treatment options and risks and benefits of limb lengthening, including no treatment at all. Although an LLD may be detected on a screening examination for curvature of the spine (scoliosis), LLD does not cause scoliosis. There is controversy about the effect of LLD on the spine. Some studies indicate that people with an LLD have a greater incidence of low back pain and an increased susceptibility to injuries, but other studies refute this relationship.

Diagnosis

A doctor will generally take a detailed medical history of both the patient and family, including asking about recent injuries or illnesses. He or she will carefully examine the patient, observing how he or she moves and stands. If necessary, an orthopedic surgeon will order X-ray, bone age determinations and computed tomography (CT) scans or magnetic resonance imaging (MRI).

Non Surgical Treatment

The non-surgical intervention is mainly usedfor the functional and environmental types of leg length discrepancies. It is also applied to the mild category of limb length inequality. Non-surgical intervention consists of stretching the muscles of the lower extremity. This is individually different, whereby the M. Tensor Fascia latae, the adductors, the hamstring muscles, M. piriformis and M. Iliopsoas are stretched. In this non-surgical intervention belongs also the use of shoe lifts. These shoe lifts consists of either a shoe insert (up to 10-20mm of correction), or building up the sole of the shoe on the shorter leg (up to 30-60mm of correction). This lift therapy should be implemented gradually in small increments. Several studies have examined the treatment of low back pain patients with LLD with shoe lifts. Gofton obtained good results: the patients experienced major or complete pain relief that lasted upon follow-up ranging from 3 to 11 years. Helliwell also observed patients whereby 44% experienced complete pain relief, and 45% had moderate or substantial pain relief. Friberg found that 157 (of 211) patients with LBP, treated with shoe lifts, were symprom-free after a mean follow-up of 18 months.

Your child will be given general anesthetic. We cut the bone and insert metal pins above and below the cut. A metal frame is attached to the pins to support the leg. Over weeks and months, the metal device is adjusted to gradually pull the bone apart to create space between the ends of the bones. New bone forms to fill in the space, extending the length of the bone. Once the lengthening process is completed and the bones have healed, your child will require one more short operation to remove the lengthening device. We will see your child regularly to monitor the leg and adjust the metal lengthening device. We may also refer your child to a physical therapist to ensure that he or she stays mobile and has full range of motion in the leg. Typically, it takes a month of healing for every centimeter that the leg is lengthened.

A Morton's neuroma usually develops between the third and fourth toes. Less commonly, it develops between the second and third toes. Other locations are rare. It also is rare for a Morton's neuroma to develop in both feet at the same time. The condition is much more common in women than men, probably as a result of wearing high-heeled, narrow-toed shoes. This style of shoe tends to shift the bones of the feet into an abnormal position, which increases the risk that a neuroma will form. Being overweight also increases the risk of a Morton's neuroma.

Causes

There are many reasons to develop a neuroma. Improper shoe gear is probably the most likely cause. Repetitive activity and excessive pressure on the ball of the foot are common. Heredity and genetic factors may also be involved. In many cases the structure of the foot may predispose the condition. Associated conditions that may cause neuroma include: bunion, hammer toes, ligament laxity, and/or a tight calf muscle. Some patients may have thinning of the fat pad on the ball of the foot, which may result in increased pressure of the nerves. Tight pointy shoes (and high heels) without padding may induce pain in the ball of the foot. Neuroma may occur suddenly, or develop over time.

Symptoms

The most common symptom of Morton's neuroma is localized pain in the interspace between the third and fourth toes. It can be sharp or dull, and is worsened by wearing shoes and by walking. Pain usually is less severe when the foot is not bearing weight.

Diagnosis

The doctor will perform an examination of your feet as well. He or she may palpate your feet and flex them in specific ways that will indicate the presence of a neuroma. X-rays are often used to rule out other problems, such as fractures, bone spurs, arthritis or other problems with the bones in the toes or foot. In some cases, an MRI (magnetic resonance imaging) may be helpful to confirm the presence of a neuroma.

Non Surgical Treatment

Initial treatment for Morton?s Neuroma may include non-prescription anti-inflammatory medications to reduce pain and swelling. These may consist of standard analgesics such as aspirin and ibuprofen (Advil, Motrin, others). Massaging the painful region three times daily with ice. Change of footwear. Avoid tight shoes, high heels or any footwear that seems to irritate the condition. Low heeled shoes with softer soles are preferable. Arch supports and foot pads to help reduce pressure on the nerve. In some cases, a physician may prescribe a customized shoe insert, molded to fit the contours of the patient?s foot. Reducing activities causing stress to the foot, including jogging, dancing, aerobic activity or any high impact movements of the foot. Injections of a corticosteroid medication to reduce the swelling and inflammation of the nerve and reduce pain. Occasionally other substances may be injected in order to ?ablate? the Neuroma. (The overuse of injected steroids is to be avoided however, as side effects, including weight gain and high blood pressure can result.)

Surgical Treatment

If your pain continues despite several months of conservative treatment, your doctor may recommend surgery to remove the neuroma or to widen the space through which the affected nerve travels. These types of surgery often are done under local anesthesia. If your doctor removes a portion of the affected nerve along with the neuroma, you may develop permanent numbness between the toes.

Prevention

Ensuring that shoes are well fitted, low-heeled and with a wide toe area may help to prevent Morton's neuroma.

Overview
There are two different types. Flexible Hammertoe. These are less serious because they can be diagnosed and treated while still in the developmental stage. They are called flexible hammertoes because they are still moveable at the joint. Rigid Hammertoes. This variety is more developed and more serious than the flexible condition. Rigid hammertoes can be seen in patients with severe arthritis, for example, or in patients who wait too long to seek professional treatment. The tendons in a rigid hammertoe have become tight, and the joint misaligned and immobile, making surgery the usual course of treatment.

Causes
A common cause of hammertoe and mallet toe is wearing improper footwear - shoes that are too tight in the toe box, or high-heel shoes. Wearing shoes of either type can push your toes forward, crowding one or more of them into a space that's not large enough to allow your toes to lie flat. Hammertoe and mallet toe deformities can also be inherited and may occur despite wearing appropriate footwear. The result is a toe that bends upward in the middle and then curls down in a hammer-like or claw-like shape. Your shoes can rub against the raised portion of the toe or toes, causing painful corns or calluses. The bottom of the affected toe can press down, creating the mallet-like appearance of mallet toe. At first, a hammertoe or mallet toe may maintain its flexibility and lie flat when you're not wearing crowded footwear. But eventually, the tendons of the toe may contract and tighten, causing your toe to become permanently stiff.

Symptoms
People with a hammer toe will often find that a corn or callus will develop on the top of the toe, where it rubs against the top of the footwear. This can be painful when pressure is applied or when anything rubs on it. The affected joint may also be painful and appear swollen.

Diagnosis
Most health care professionals can diagnose hammertoe simply by examining your toes and feet. X-rays of the feet are not needed to diagnose hammertoe, but they may be useful to look for signs of some types of arthritis (such as rheumatoid arthritis) or other disorders that can cause hammertoe. If the deformed toe is very painful, your doctor may recommend that you have a fluid sample withdrawn from the joint with a needle so the fluid can be checked for signs of infection or gout (arthritis from crystal deposits).

Non Surgical Treatment
If you have hammer toe, avoiding tight shoes and high heels may provide relief. Initial (non-surgical) treatment for hammer toe involves wearing shoes with plenty of room in the toe area. Shoes should be at least one-half inch longer than the longest toe. Stretching and strengthening exercises for the toes (such as picking up items with the toes or stretching the toes by hand) are also recommended. Sometimes orthopedists recommend special pads, cushions, or slings to help relieve the pain of hammer toe.

Surgical Treatment
There are several surgical methods to correct a hammer toe. Your physician will decide which method will be most beneficial to you depending on the severity of your deformity, the direction the toe is deviating and the length of the affected toe. Some common surgical methods include. Arthroplasty. To promote straightening, half of the joint located directly underneath the crooked part of the toe is removed. Arthrodesis (fusion) To promote straightening, the joint directly underneath where the toe is crooked is completely removed. A wire or pin is inserted to aid healing. Tendon transfer. Performed alone or in combination with other procedures, a surgeon will take tendons from under the toe and ?re-route? them to the top of the toe to promote straightening. Basal phalangectomy. Performed to assist patients with severe stiffness, this procedure removes the base of the bone underneath the toe. Weil osteotomy. Performed to assist patients with severe stiffness, this procedure involves shortening the metatarsal bone and inserting surgical hardware to aid healing.

Overview The bunion, or hallux valgus, is a condition that affects the bones and joints associated with the great toe. It is one of the most common deformities of the forefoot. The condition develops slowly and results from the gradual dislocation of the joint, usually because of instability during gait. There is a displacement of the first metatarsal bone toward the mid-line of the body, and a simultaneous displacement of the great toe away from the mid-line (and toward the smaller toes). This causes a prominence of bone on the inside (medial) margin of the forefoot, this is termed a bunion. As the deformity progresses, the big toe will shift toward the outside of the foot. In severe cases, the big toe will actually overlap or under lap the second toe. It is often of a hereditary nature, but it is also associated with rheumatoid arthritis and other diseases. There are no exercises, splints or other devices that reliably correct a bunion. Orthotics can sometimes slow or halt the progression by addressing the instability which causes the deformity, but they cannot reduce the deformity.

Causes
Bunions are among the most common problems of the foot. They are several possible reasons a bunion may develop, though a biomechanical abnormality (improper function of the foot) is the most common cause. In an unstable flat foot, for example, a muscular imbalance often develops that, over time, causes bunions. Bunions tend to run in families, and most podiatrists believe that genetic factors play a role in predisposing some people to develop bunions. Poor shoes, like high heels and pointed toe boxes--exacerbate the condition by speeding up the development of bunions, and by making bunions more painful. Poor shoe choices is at least one of the reasons bunions are much more common in women than men.

Symptoms
The skin over your big toe may be red and tender. Wearing any type of shoe may be painful. This joint flexes with every step you take. Your big toe may angle toward your second toe, or even move all the way under it. The skin on the bottom of your foot may become thicker and painful. Pressure from your big toe may force your second toe out of alignment, sometimes overlapping your third toe. If this condition gets severe, it may be difficult to walk. Your pain may become chronic and you may develop arthritis.

Diagnosis
Diagnosis begins with a careful history and physical examination by your doctor. This will usually include a discussion about shoe wear and the importance of shoes in the development and treatment of the condition. X-rays will probably be suggested. This allows your doctor to measure several important angles made by the bones of the feet to help determine the appropriate treatment.

Non Surgical Treatment
Non-surgical treatments for bunions may include wearing shoes that fit and that have adequate toe room. Stretching shoes professionally to make them larger. Putting bunion pads over the bunion to cushion the pain. Avoiding activities that cause pain, such as being on your feet for long periods of time. Taking over-the-counter pain relievers when necessary, such as acetaminophen or nonsteroidal anti-inflammatory drugs (NSAIDS) like ibuprofen. Using ice to provide relief from inflammation and pain. Using custom-made orthotic devices.

Surgical Treatment
Depending on the size of the enlargement, misalignment of the toe, and pain experienced, conservative treatments may not be adequate to prevent progressive damage from bunions. In these cases, bunion surgery, known as a bunionectomy, may be advised to remove the bunion and realign the toe.

Prevention
Choosing footwear that fits correctly, especially low heeled shoes with plenty of space for the toes, is one of the main ways that bunions can be prevented. Always stand when trying on shoes to ensure they still fit comfortably when the foot expands under your body weight. Try shoes on both feet, and select the size appropriate for your larger foot. Use an extra insole if one shoe is looser than the other. Do not cramp the larger foot. People prone to flat-footedness should consider the use of arch supports, orthotic shoe inserts or special orthotic shoes to prevent or delay the development of bunions.

Your feet are the foundation for your entire body. When this foundation is misaligned or functioning poorly the effects can be felt throughout the body, whether in muscle and joint pain or through more serious injuries. Over 75% of the population suffers from overpronation or excessive supination, yet most of us are unaware of our own foot type and how it affects the rest of our body.

Causes

There are many possible causes for overpronation, but researchers have not yet determined one underlying cause. Hintermann states, Compensatory overpronation may occur for anatomical reasons, such as a tibia vara of 10 degrees or more, forefoot varus, leg length discrepancy, ligamentous laxity, or because of muscular weakness or tightness in the gastrocnemius and soleus muscles. Pronation can be influenced by sources outside of the body as well. Shoes have been shown to significantly influence pronation. Hintermann states that the same person can have different amounts of pronation just by using different running shoes. It is easily possible that the maximal ankle joint eversion movement is 31 degrees for one and 12 degrees for another running shoe.

Symptoms

Because overpronation affects the entire lower leg, many injuries and conditions may develop and eventually cause problems not only in the leg and foot, but also the knee, hips and lower back. Pain often begins in the arch of the foot or the ankle. Blisters may develop on the instep, or on the inside edge of the heels. As overpronation continues and problems develop, pain will be felt elsewhere, depending on the injury.

Diagnosis

If you have flat feet or low arches, chances are you overpronate. Although not always the case, the lower your arches the greater the overpronate. Stand on a hard surface (in front of a mirror if you need to) and look at your feet, flat feet or low arches are easy to spot. If your feet look flatter than a pancake, have a look at your ankles and see if they seem collapsed or straight. If they are, you're overpronating.

Non Surgical Treatment

Supportive orthotics in the shoe is a method commonly implemented to treat many common running injuries associated with pronation. An advantage of orthotics is that they often allow the sufferer to continue to participate in athletic activity and avoid other treatment options that could be potentially costly and time consuming. Seventy-five percent of injured runners are successfully treated with the prescription of orthoses. Orthotics are the most effective treatment for symptoms that develop from unusual biomechanics within the body such as overpronation, resulting in either great improvement or complete healing of the injury in about half the cases.

Prevention

Many of the prevention methods for overpronation orthotics, for example, can be used interchangeably with treatment methods. If the overpronation is severe, you should seek medical attention from a podiatrist who can cast you for custom-made orthotics. Custom-made orthotics are more expensive, but they last longer and provide support, stability, and balance for the entire foot. You can also talk with a shoe specialist about running shoes that offer extra medial support and firm heel counters. Proper shoes can improve symptoms quickly and prevent them from recurring. Surgery can sometimes help cure and prevent this problem if you suffer from inherited or acquired pes planus deformity. Surgery typically involves stabilizing the bones to improve the foot?s support and function.

As children reach their growth spurt in early puberty, the heel is one of the first body parts to grow to full size. Because children's bones are growing so fast, the muscles or tendons can't keep up and often become tight. The tight heel tendons can put a lot of stress on the heel, especially if a child is involved in athletics or other weight-bearing activity. Over time, too much pressure on the heel can injure it and result in Sever's disease, also called calcaneal apophysitis.

Causes

Sever's disease is caused by repetitive tension and/or pressure on the growth center of the heel. Running and jumping place a large amount of pressure on the heels and can cause pain. Children with Sever's may limp or have an altered gait due to the pain. Risk factors for Sever's include tight calf muscles, weak ankle muscles, and alignment abnormalities at the foot and ankle. Sever's can also result from wearing shoes without sufficient heel padding or arch support.

Symptoms

Adolescents suffering from Sever?s disease usually complain of pain at the back of their heel which is often worse after exercising. It is most common between the ages of 10-12 in boys and 8-10 in girls due to the rapid growth spurts that occur during this time. It can however happen anytime up until the age of 15. Whilst most people present with pain worse in one foot, it is very common to have symptoms in both feet.

Diagnosis

A physical exam of the heel will show tenderness over the back of the heel but not in the Achilles tendon or plantar fascia. There may be tightness in the calf muscle, which contributes to tension on the heel. The tendons in the heel get stretched more in patients with flat feet. There is greater impact force on the heels of athletes with a high-arched, rigid foot.

Non Surgical Treatment

Podiatrists have an important role in the provision of orthotics to young sufferers of Severs? disease. Orthotics are specialised insoles designed to accommodate problems with the foot. In this particular condition?s case, orthotics are an effective way of making sure that the heel is cushioned in such a way as to reduce a child?s discomfort and alleviate some of the pressure of walking, thereby facilitating the recovery process. Young athletes can benefit from a visit to a podiatrist to learn about prevention and to have orthotics fitted to prevent Severs? disease from developing. Regular stretching to keep joints supple and loose are a great preventative measure, as is making sure that appropriately fitted and supportive shoes (often equipped with orthotics) are used to prevent future injury.

Surgical Treatment

The surgeon may select one or more of the following options to treat calcaneal apophysitis. Reduce activity. The child needs to reduce or stop any activity that causes pain. Support the heel. Temporary shoe inserts or custom orthotic devices may provide support for the heel. Medications. Nonsteroidal anti-inflammatory drugs (NSAIDs), such as ibuprofen, help reduce the pain and inflammation. Physical therapy. Stretching or physical therapy modalities are sometimes used to promote healing of the inflamed issue. Immobilization. In some severe cases of pediatric heel pain, a cast may be used to promote healing while keeping the foot and ankle totally immobile. Often heel pain in children returns after it has been treated because the heel bone is still growing. Recurrence of heel pain may be a sign of calcaneal apophysitis, or it may indicate a different problem. If your child has a repeat bout of heel pain, be sure to make an appointment with your foot and ankle surgeon.

Overview A total rupture of the achilles tendon is a complete tear of the tendon and typically affects men over the age of 40 involved in recreational sport. A complete rupture of the achilles tendon is not always recognized at the time of injury, however it is very important it is treated properly as soon as possible to increase the chances of a good recovery.

Causes
People who commonly fall victim to Achilles rupture or tear include recreational athletes, people of old age, individuals with previous Achilles tendon tears or ruptures, previous tendon injections or quinolone use, extreme changes in training intensity or activity level, and participation in a new activity. Most cases of Achilles tendon rupture are traumatic sports injuries. The average age of patients is 29-40 years with a male-to-female ratio of nearly 20:1. Fluoroquinolone antibiotics, such as ciprofloxacin, and glucocorticoids have been linked with an increased risk of Achilles tendon rupture. Direct steroid injections into the tendon have also been linked to rupture. Quinolone has been associated with Achilles tendinitis and Achilles tendon ruptures for some time. Quinolones are antibacterial agents that act at the level of DNA by inhibiting DNA Gyrase. DNA Gyrase is an enzyme used to unwind double stranded DNA which is essential to DNA Replication. Quinolone is specialized in the fact that it can attack bacterial DNA and prevent them from replicating by this process, and are frequently prescribed to the elderly. Approximately 2% to 6% of all elderly people over the age of 60 who have had Achilles ruptures can be attributed to the use of quinolones.

Symptoms
Following are a few of the symptoms usually associated with an Achilles tendon rupture. Sudden, severe pain, swelling, bruising, difficulty walking. Sometimes a gap may be felt in the tendon. The most common ways an Achilles tendon rupture is diagnosed are clinical history (presenting symptoms). Thompson or Simmonds? test, positive if when squeezing the calf there is no foot movement (passive planter flextion). O?Brien?s test, needles are placed into the tendon; tendon is intact if when the foot is moved up and down, the needle hub moves in the same direction as the toes (opposite direction of the tendon) Ultrasound and MRI, because these technologies involve an added expense, they are usually employed only to confirm the diagnosis.

Diagnosis
A detailed history, and examination by an appropriately qualified health professional, will allow a diagnosis to be made. An ultrasound or MRI scan can confirm the diagnosis. Other causes of symptoms in the area, such as those referred from the lumbar spine and local infection, should be excluded.

Non Surgical Treatment
There are two treatment options available which are non-operative and operative. Non-operative treatment involves the use initially of a below-knee plaster with the foot held fully bent downwards. This usually stays in place for 2 weeks then is changed for a brace(this is a boot from the knee down to the toes with Velcro straps) which should be worn day and night. The brace will be regularly altered to allow the foot to come up to a more neutral position. The brace will be on for a further 6 weeks. After the 8 weeks you will be referred for physiotherapy to regain movement and calf strength but will probably need to wear the brace during the day for a further 4 weeks. Non-operative treatment avoids the risks of surgery but the risk of the tendon re-rupturing, which normally occurs within 3 months of discarding the brace, is 10%.

Surgical Treatment
Surgery for Achilles tendon rupture requires an operation to open the skin and physically suture (sew) the ends of the tendon back together, has a lower incidence of re-rupture than nonsurgical treatment. Allows return to pre-injury activities sooner and at a higher level of functioning with less shrinkage of muscle. Risks are associated with surgery, anesthesia, infection, skin breakdown, scarring, bleeding, accidental nerve injury, higher cost, and blood clots in the leg are possible after surgery. Surgery has been the treatment of choice for the competitive athlete or those with a high level of physical activity, for those with a delay in treatment or diagnosis, and for those whose tendons have ruptured again.

Prevention
To help prevent an Achilles tendon injury, it is a good practice to perform stretching and warm-up exercises before any participating in any activities. Gradually increase the intensity and length of time of activity. Muscle conditioning may help to strengthen the muscles in the body.

Overview
Originally known as posterior tibial tendon dysfunction or insufficiency, adult-acquired flatfoot deformity encompasses a wide range of deformities. These deformities vary in location, severity, and rate of progression. Establishing a diagnosis as early as possible is one of the most important factors in treatment. Prompt early, aggressive nonsurgical management is important. A patient in whom such treatment fails should strongly consider surgical correction to avoid worsening of the deformity. In all four stages of deformity, the goal of surgery is to achieve proper alignment and maintain as much flexibility as possible in the foot and ankle complex. However, controversy remains as to how to manage flexible deformities, especially those that are severe.

Symptoms
The symptoms of PTTD may include pain, swelling, a flattening of the arch, and inward rolling of the ankle. As the condition progresses, the symptoms will change. For example, later, as the arch begins to flatten, there may still be pain on the inside of the foot and ankle. But at this point, the foot and toes begin to turn outward and the ankle rolls inward. As PTTD becomes more advanced, the arch flattens even more and the pain often shifts to the outside of the foot, below the ankle. The tendon has deteriorated considerably and arthritis often develops in the foot. In more severe cases, arthritis may also develop in the ankle. Symptoms, which may occur in some persons with flexible flatfoot, include. Pain in the heel, arch, ankle, or along the outside of the foot. ?Turned-in? ankle. Pain associated with a shin splint. General weakness / fatigue in the foot or leg.

Diagnosis
The history and physical examination are probably the most important tools the physician uses to diagnose this problem. The wear pattern on your shoes can offer some helpful clues. Muscle testing helps identify any areas of weakness or muscle impairment. This should be done in both the weight bearing and nonweight bearing positions. A very effective test is the single heel raise. You will be asked to stand on one foot and rise up on your toes. You should be able to lift your heel off the ground easily while keeping the calcaneus (heel bone) in the middle with slight inversion (turned inward). X-rays are often used to study the position, shape, and alignment of the bones in the feet and ankles. Magnetic resonance (MR) imaging is the imaging modality of choice for evaluating the posterior tibial tendon and spring ligament complex.

Non surgical Treatment
Treatment of Adult Acquired Flatfoot Deformity depends on the stage of progression, as mentioned above paragraphs. Below we will outline a variety of different treatment options available. Orthotics or bracing. To give your foot the arch the support it needs, your podiatrist or foot specialist may provide you with over the counter brace or a custom orthotic device that fits your shoe. Casting. In some cases, a cast or boot is worn to stabilize the foot and to give the tendon time to heal. Physiotherapy. Ultrasound treatments and exercises may help rehab the tendon and muscles. Medications. Over-the-counter (NSAIDS) such as ibuprofen can help reduce pain, inflammation and swelling associated with AAFD. Shoe Gear. Your podiatrist may suggest changes with your shoes you are wearing and inserts you need in your shoe to help support your arch.

Surgical Treatment
The indications for surgery are persistent pain and/or significant deformity. Sometimes the foot just feels weak and the assessment of deformity is best done by a foot and ankle specialist. If surgery is appropriate, a combination of soft tissue and bony procedures may be considered to correct alignment and support the medial arch, taking strain off failing ligaments. Depending upon the tissues involved and extent of deformity, the foot and ankle specialist will determine the necessary combination of procedures. Surgical procedures may include a medial slide calcaneal osteotomy to correct position of the heel, a lateral column lengthening to correct position in the midfoot and a medial cuneiform osteotomy or first metatarsal-tarsal fusion to correct elevation of the medial forefoot. The posterior tibial tendon may be reconstructed with a tendon transfer. In severe cases (stage III), the reconstruction may include fusion of the hind foot,, resulting in stiffness of the hind foot but the desired pain relief. In the most severe stage (stage IV), the deltoid ligament on the inside of the ankle fails, resulting in the deformity in the ankle. This deformity over time can result in arthritis in the ankle.